Flow123d
release_2.2.0-26-ge868538
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Basic time management functionality for unsteady (and steady) solvers (class Equation). More...
#include <time_governor.hh>
Public Member Functions | |
DECLARE_INPUT_EXCEPTION (ExcTimeGovernorMessage,<< EI_Message::val) | |
TYPEDEF_ERR_INFO (EI_Index, int) | |
TYPEDEF_ERR_INFO (EI_BackIndex, unsigned int) | |
TYPEDEF_ERR_INFO (EI_HistorySize, unsigned int) | |
DECLARE_EXCEPTION (ExcMissingTimeStep,<< "Time step index: "<< EI_Index::val<< ", history index: "<< EI_BackIndex::val<< " out of history of size: "<< EI_HistorySize::val) | |
TimeGovernor (const Input::Record &input, TimeMark::Type fixed_time_mask=TimeMark::none_type) | |
Constructor for unsteady solvers. More... | |
TimeGovernor (double init_time=0.0, TimeMark::Type fixed_time_mask=TimeMark::none_type) | |
Default constructor - steady time governor. More... | |
TimeGovernor (double init_time, double dt) | |
bool | is_default () |
void | set_permanent_constraint (double min_dt, double max_dt) |
Sets permanent constraints for time step. More... | |
int | set_upper_constraint (double upper, std::string message) |
Sets upper constraint for the next time step estimating. More... | |
int | set_lower_constraint (double lower, std::string message) |
Sets lower constraint for the next time step estimating. More... | |
double | fix_dt_until_mark () |
Fixing time step until fixed time mark. More... | |
void | next_time () |
Proceed to the next time according to current estimated time step. More... | |
double | reduce_timestep (double factor) |
Force timestep reduction in particular in the case of failure of the non-linear solver. More... | |
const TimeStep & | step (int index=-1) const |
TimeMark::Type | equation_mark_type () const |
TimeMark::Type | equation_fixed_mark_type () const |
void | add_time_marks_grid (double step, TimeMark::Type mark_type=TimeMark::none_type) const |
bool | is_current (const TimeMark::Type &mask) const |
TimeMarks::iterator | next (const TimeMark::Type &mask) const |
TimeMarks::iterator | last (const TimeMark::Type &mask) const |
double | upper_constraint () const |
double | lower_constraint () const |
double | end_of_fixed_dt () const |
bool | is_changed_dt () const |
double | init_time () const |
double | t () const |
double | last_dt () const |
double | last_t () const |
double | dt () const |
double | estimate_dt () const |
Estimate choice of next time step according to actual setting of constraints. More... | |
double | estimate_time () const |
double | end_time () const |
End time. More... | |
bool | is_end () const |
Returns true if the actual time is greater than or equal to the end time. More... | |
bool | is_steady () const |
Returns true if the time governor is used for steady problem. More... | |
int | tlevel () const |
void | view (const char *name="") const |
Static Public Member Functions | |
static const Input::Type::Record & | get_input_type () |
static TimeMarks & | marks () |
Static Public Attributes | |
static const double | max_end_time = MAX_END_TIME |
static const double | inf_time = numeric_limits<double>::infinity() |
Infinity time used for steady case. More... | |
static const double | time_step_precision = 16*numeric_limits<double>::epsilon() |
Private Member Functions | |
void | init_common (double init_time, double end_time, TimeMark::Type type) |
Common part of the constructors. Set most important parameters, check they are valid and set default values to other. More... | |
Private Attributes | |
boost::circular_buffer< TimeStep > | recent_steps_ |
Circular buffer of recent time steps. Implicit size is 3. More... | |
double | init_time_ |
Initial time. More... | |
double | end_of_fixed_dt_interval_ |
End of interval if fixed time step. More... | |
double | end_time_ |
End time of the simulation. More... | |
double | fixed_time_step_ |
Next fixed time step. More... | |
bool | is_time_step_fixed_ |
Flag that is set when the fixed step is set (lasts only one time step). More... | |
bool | time_step_changed_ |
Flag is set if the time step has been changed (lasts only one time step). More... | |
std::string | upper_constraint_message_ |
Description of the upper constraint. More... | |
std::string | lower_constraint_message_ |
Description of the upper constraint. More... | |
double | upper_constraint_ |
Upper constraint for the choice of the next time step. More... | |
double | lower_constraint_ |
Lower constraint for the choice of the next time step. More... | |
double | max_time_step_ |
Permanent upper limit for the time step. More... | |
double | min_time_step_ |
Permanent lower limit for the time step. More... | |
double | last_upper_constraint_ |
Upper constraint used for choice of current time. More... | |
double | last_lower_constraint_ |
Lower constraint used for choice of current time. More... | |
TimeMark::Type | eq_mark_type_ |
TimeMark type of the equation. More... | |
bool | steady_ |
True if the time governor is used for steady problem. More... | |
friend | TimeMarks |
Static Private Attributes | |
static const unsigned int | size_of_recent_steps_ = 3 |
static TimeMarks | time_marks_ = TimeMarks() |
Basic time management functionality for unsteady (and steady) solvers (class Equation).
This class provides algorithm for selecting next time step, and information about current time step frame. Step estimating is constrained by several bounds (permanent maximal and minimal time step, upper and lower constraint of time step). The permanent constraints are set in the constructor from the input record so that user can set the time step constraints for the whole simulation. Function set_permanent_constraint() should be used only in very specific cases and possibly right after the constructor before using other functions of TG.
Choice of the very next time step can be constrained using functions set_upper_constraint() and set_lower_constraint(). Lower and upper constraints are set equal to permanent ones in the constructor and can only become stricter. If one tries to set these constraints outside the interval of the previous constraints, nothing is changed and a specified value is returned. Upper and lower constraints are reset in function next_time() to the permanent constraints.
The later one can be called multiple times with various constraint values and we use the minimum of them. Function next_time() choose the next time step in such a way that it meets actual constraints and a uniform discrete time grid with this step hits the nearest fixed time in lowest possible number of steps.
The fixed times are time marks of TimeMarks object passed at construction time with particular mask.
There is just one set of time marks for the whole problem. Therefore TimeMarks object is static and is shared umong all the equations and time governors. Each equation creates its own specific time mark type.
Information provided by TG includes:
Steady TG can be constructed by default constructor (initial time is zero) or by constructor with initial time as parameter. End time and time step are set to infinity. One can check if the time governor is steady by calling is_steady(). Calling estimate_dt() will return infinity.
Setting constraints have no consequences. Calling fix_dt_until_mark() will only return zero and will not do anything.
The steady TG works in two states. At first the time is set to initial and time level is equal zero. To use steady TG properly one should call next_time() after the computation of steady problem is done. Current time is then set to infinity, time level is set to 1 and calling estimate_dt() will return zero.
Note: For example class TransportNothing (which computes really nothing) uses also steady TG but it calls next_time() immediately after TG's construction. This means that the 'computation'of transport is done.
Definition at line 215 of file time_governor.hh.
TimeGovernor::TimeGovernor | ( | const Input::Record & | input, |
TimeMark::Type | fixed_time_mask = TimeMark::none_type |
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Constructor for unsteady solvers.
input | accessor to input data |
fixed_time_mask | TimeMark mask used to select fixed time marks from all the time marks. This value is bitwise added to the default one defined in TimeMarks::type_fixed_time(). |
Definition at line 125 of file time_governor.cc.
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explicit |
Default constructor - steady time governor.
OBSOLETE.
We can have "zero step" steady problem (no computation, e.g. EquationNothing) and one step steady problem (e.g. steady water flow).
Time is set to zero, time step and end time to infinity.
First call of next_time() pushes the actual time to infinity.
However, you have to use full constructor for the "steady problem" that has time-variable input data.
Has a private pointer to static TimeMarks and can access them by marks().
Definition at line 185 of file time_governor.cc.
TimeGovernor::TimeGovernor | ( | double | init_time, |
double | dt | ||
) |
The aim of this constuctor is simple way to make a time governor without Input interface.
TODO: Partially tested as part of field test. Needs its own unit test.
Definition at line 163 of file time_governor.cc.
void TimeGovernor::add_time_marks_grid | ( | double | step, |
TimeMark::Type | mark_type = TimeMark::none_type |
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) | const |
Add sequence of time marks starting from the initial time up to the end time with given step
. Time marks type combines given mark_type (none by default) and native mark type of the time governor.
Definition at line 333 of file time_governor.cc.
TimeGovernor::DECLARE_EXCEPTION | ( | ExcMissingTimeStep | , |
<< "Time step index: "<< EI_Index::val<< " | , | ||
history index:"<< EI_BackIndex::val<< "out of history of size:"<< EI_HistorySize::val | |||
) |
TimeGovernor::DECLARE_INPUT_EXCEPTION | ( | ExcTimeGovernorMessage | , |
<< EI_Message::val | |||
) |
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Length of actual time interval; i.e. the actual time step.
Definition at line 452 of file time_governor.hh.
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End of interval with currently fixed time step. Can be changed by next call of method fix_dt_until_mark.
Definition at line 410 of file time_governor.hh.
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End time.
Definition at line 478 of file time_governor.hh.
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Specific time mark of the fixed times of the equation owning the time governor.
Definition at line 368 of file time_governor.hh.
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Specific time mark of the equation owning the time governor.
Definition at line 362 of file time_governor.hh.
double TimeGovernor::estimate_dt | ( | ) | const |
Estimate choice of next time step according to actual setting of constraints.
Precedence of constraints:
Definition at line 356 of file time_governor.cc.
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Estimate next time.
Definition at line 474 of file time_governor.hh.
double TimeGovernor::fix_dt_until_mark | ( | ) |
Fixing time step until fixed time mark.
Fix time step until first fixed time mark. When called inside an already fixed interval, it overwrites previous setting.
Definition at line 322 of file time_governor.cc.
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Common part of the constructors. Set most important parameters, check they are valid and set default values to other.
Set main parameters to given values. Check they are correct. Set soft and permanent constrains to the same, the least restricting values. Set time marks for the start time and end time (if finite).
Definition at line 196 of file time_governor.cc.
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Initial time getter.
Definition at line 423 of file time_governor.hh.
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Getter for dt_changed. Returns whether the time step has been changed.
Definition at line 416 of file time_governor.hh.
bool TimeGovernor::is_current | ( | const TimeMark::Type & | mask | ) | const |
Simpler interface to TimeMarks::is_current().
Definition at line 348 of file time_governor.cc.
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Returns true if the time governor was set from default values
Definition at line 276 of file time_governor.hh.
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Returns true if the actual time is greater than or equal to the end time.
Definition at line 482 of file time_governor.hh.
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Returns true if the time governor is used for steady problem.
Definition at line 486 of file time_governor.hh.
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Simpler interface to TimeMarks::last().
Definition at line 392 of file time_governor.hh.
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Previous time step.
Definition at line 435 of file time_governor.hh.
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Previous time.
Definition at line 443 of file time_governor.hh.
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Returns lower constraint.
Definition at line 404 of file time_governor.hh.
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Getter for time marks.
Definition at line 233 of file time_governor.hh.
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Simpler interface to TimeMarks::next().
Definition at line 386 of file time_governor.hh.
void TimeGovernor::next_time | ( | ) |
Proceed to the next time according to current estimated time step.
The timestep constraints are relaxed to the permanent constraints.
Definition at line 395 of file time_governor.cc.
double TimeGovernor::reduce_timestep | ( | double | factor | ) |
Force timestep reduction in particular in the case of failure of the non-linear solver.
Calling this method also force immediate end of the fixed timestep interval. Returns true reduce factor used. It is larger then given factor if we hit the lower timestep constraint.
TODO: How to keep constraints active for the last next_time call.
Definition at line 444 of file time_governor.cc.
int TimeGovernor::set_lower_constraint | ( | double | lower, |
std::string | message | ||
) |
Sets lower constraint for the next time step estimating.
This function can only make the constraint stricter. Lower constraint is reset to min_dt
after the next_time() call. The return value mimics result of the comparison: current constraint compared to
upper. | In particular the return values is:
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lower. | No change happen.
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lower. | The lower constraint is set.
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lower. | No change happen. Sets lower constraint for the next time step estimating. |
lower | is the lower constraint for time step |
message | describes the origin of the constraint |
Definition at line 301 of file time_governor.cc.
void TimeGovernor::set_permanent_constraint | ( | double | min_dt, |
double | max_dt | ||
) |
Sets permanent constraints for time step.
This function should not be normally used. These values are to be set in constructor from the input record or by default.
min_dt | is the minimal value allowed for time step |
max_dt | is the maximal value allowed for time step |
Definition at line 257 of file time_governor.cc.
int TimeGovernor::set_upper_constraint | ( | double | upper, |
std::string | message | ||
) |
Sets upper constraint for the next time step estimating.
This function can only make the constraint stricter. Upper constraint is reset to max_dt
after the next_time() call. The return value mimics result of the comparison: current constraint compared to
upper. | |
message | describes the origin of the constraint In particular the return values is:
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upper. | No change happen.
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upper. | The upper constraint is set.
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upper. | No change happen. |
Definition at line 280 of file time_governor.cc.
const TimeStep & TimeGovernor::step | ( | int | index = -1 | ) | const |
Returns reference to required time step in the recent history. Without parameter the actual time step is returned. Use negative indices to get recent time steps: step(-1) the actual step, step(-2) the last one. Use positive index to get time step by its index: step(0) the first time step. However only limited number of last time steps is stored. If the time step is not accessible any more, we throw an exception ExcMissingTimeStep.
Definition at line 469 of file time_governor.cc.
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End of actual time interval; i.e. where the solution is computed.
Definition at line 429 of file time_governor.hh.
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Returns the time level.
Definition at line 494 of file time_governor.hh.
TimeGovernor::TYPEDEF_ERR_INFO | ( | EI_Index | , |
int | |||
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TimeGovernor::TYPEDEF_ERR_INFO | ( | EI_BackIndex | , |
unsigned | int | ||
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TimeGovernor::TYPEDEF_ERR_INFO | ( | EI_HistorySize | , |
unsigned | int | ||
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Getter for upper constrain.
Definition at line 398 of file time_governor.hh.
void TimeGovernor::view | ( | const char * | name = "" | ) | const |
Prints output of TimeGovernor.
name | is the name of time governor that you want to show up in output (just for your convenience) |
Definition at line 485 of file time_governor.cc.
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End of interval if fixed time step.
Definition at line 539 of file time_governor.hh.
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End time of the simulation.
Definition at line 541 of file time_governor.hh.
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TimeMark type of the equation.
Definition at line 577 of file time_governor.hh.
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Next fixed time step.
Definition at line 544 of file time_governor.hh.
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Infinity time used for steady case.
Definition at line 508 of file time_governor.hh.
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Initial time.
Definition at line 537 of file time_governor.hh.
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Flag that is set when the fixed step is set (lasts only one time step).
Definition at line 546 of file time_governor.hh.
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Lower constraint used for choice of current time.
Definition at line 566 of file time_governor.hh.
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Upper constraint used for choice of current time.
Definition at line 564 of file time_governor.hh.
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Lower constraint for the choice of the next time step.
Definition at line 557 of file time_governor.hh.
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Description of the upper constraint.
Definition at line 553 of file time_governor.hh.
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Definition at line 505 of file time_governor.hh.
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Permanent upper limit for the time step.
Definition at line 559 of file time_governor.hh.
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Permanent lower limit for the time step.
Definition at line 561 of file time_governor.hh.
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Circular buffer of recent time steps. Implicit size is 3.
Definition at line 535 of file time_governor.hh.
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Size of the time step buffer, i.e. recent_time_steps_.
Definition at line 532 of file time_governor.hh.
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True if the time governor is used for steady problem.
Definition at line 580 of file time_governor.hh.
When the next time is chosen we need only the lowest fix time. Therefore we use minimum priority queue of doubles based on the vector container. This is one global set of time marks for the whole problem and is shared among all equations. Therefore this object is static constant pointer.
Definition at line 574 of file time_governor.hh.
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Flag is set if the time step has been changed (lasts only one time step).
Definition at line 548 of file time_governor.hh.
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Rounding precision for computing time_step. Used as technical lower bound for the time step.
Definition at line 514 of file time_governor.hh.
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Definition at line 582 of file time_governor.hh.
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Upper constraint for the choice of the next time step.
Definition at line 555 of file time_governor.hh.
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Description of the upper constraint.
Definition at line 551 of file time_governor.hh.